computar lens tech guide

FCS(w/o Amplifier) AFCS(with Amplifier)

Supplied Power - DC8V ～16V 35mA max

Input Signal - Video Signal (V or Vs)

Iris Accuracy - ±15％ (Video level)

Sensitivity Adjustment - 0.5V (p-p) ～1.0V (p-p) (Video signal)Input Impedance - High impedanceTransit Time - Approx. 2sec

Light Weighting Method - Adjustable between Average-Peak (to be set at average at factory)Operating Temperature ー10℃～+50℃ ー10℃～+50℃

Wiring Diagram

1) LEVEL & ALC remotes have beenfunctioned on the following models

T21Z5816AMS-CS2/AMSP-CS2H10Z0812AMS-2/AMSP-2H10Z1218AMS-2/AMSP-2

*Vcc represents input voltage.*The ALC should be set at the full peak position.

2) LEVEL remote (AS OPTION)

T6Z5710AMS-CS/AMSP-CST10Z5712AMS-CS/AMSP-CST34Z5518AMS-CS/AMSP-CST34Z5518AMSR-CS/AMSPR-CSH6Z0812AMS/AMSPH16Z7516AMS/AMSP (-IR)H16Z7516AMSR/AMSPR (-IR)

*Vcc represents input voltage.

3) Override manual

T34Z5518AMSR-CS/AMSPR-CSH16Z7516AMSR/AMSPR (-IR)H30Z1015AMSR/AMSPR

*Vcc represents input voltage.*The remote voltage should be set between 1.5 ～ 5.5V, and level remote should be OFF.

R E M O T E F U N C T I O N S

C A B L E D I A G R A M S O F A U T O I R I S L E N S E S

FCS series Auto Iris Lens, equipped with auto iris mechanism by galvanometer and with ND filter, can be used with only cameras containing amplifier. Connector plug is applied to the end of the cable.

FCS series（DC DRIVE）

AFCS series Auto Iris Lens is equipped with auto lris mechanism by galvanometer, amplifier and ND spot filter.

AFCS series（VIDEO DRIVE）

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CCTV LENS_catalogue14-15_CC_-USLtr-OP.indd 51 3/7/14 6:01 PM

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Note : Regarding the wiring diagram of x60 and x20 Zoomlens, please refer to the instruction manual.

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4.8

6.4

8

1/2"

12

12

17

1.1"

9.6

12.8

16

1"

6.6

8.8

11

2/3"

5.4

7.2

9

1/1.8"

2.7 4.5

1/4"

3.6

3.6 6

1/3"

4.8

C A M E R A F O R M A T

F O C A L L E N G T H

The size of camera’s imaging device also affects the angle of view, with the smaller devices creating narrower angles of view when used on the same lens. The format of the lens, however is irrelevant to the angle of view, it merely needs to project an image which will cover the device, i.e.; the same format of the camera or larger. This also means that 1/3”cameras can utilize the entire range of lenses from 1/3” to 2/3”, with a 1/3” 8mm lens giving the same angle as a 2/3”8mm lens. The latter combination also provides increased resolution and picture quality as only the centre of the lens is being utilized, where the optics can be ground more accurately.

The focal length of the lens is measured in mm and directly relates to the angle of view that will be achieved. Short focal length provides wide angle of view and long focal length becomes telephoto, with narrow angle of view. A normal angle of view is similar to what we see with our own eye and has a relative focal length equal to the pick up device. The "computar" range calculator is simple device to use for estimating focal length, object dimension and angle of view, alternatively the VM300 view finder gives an optical way of finding focal length.

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● Formula for calculation ● For example

FORMAT 2/3 inch 1/2 inch 1/3 inch 1/4 inch

v 6.6mm 4.8mm 3.6mm 2.7mm

h 8.8mm 6.4mm 4.8mm 3.6mm

A N G L E O F V I E W

f : focal length of lens

V : Vertical size of object

H : Horizontal size of object

D : Distance from lens to object

v : vertical size of image (see the following table)

h : horizontal size of image (see the following table)

(1) In case of vertical size1/2 inch camera v = 4.8mm

Vertical size of object V = 330mm(33cm)

Distance from lens to object D = 2500mm(250cm)substitute these datas to formula (1)

(2) In case of horizontal size1/2 inch camera h = 6.4mm

Horizontal size of object H = 440mm(44cm)

Distance from lens to object D = 2500mm(250cm)substitute these datas to formula (2)

2m 5m 10m 20m

f=2.8mm

f=3.5mm

f=8mm

f=30mm

f=50mm

Object distance

Focal length

※ Images on 1/3"camera

It is important to know the angle of view of the lens to take in the object. Angle of view changes with focal length of lens and image size of camera. The focal length to cover the object can be calculated from the next formula.

■ C O M P A R I S O N O F M O N I T O R I N G I M A G E S

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D E P T H O F F I E L D

V I D E O D R I V E O R D C D R I V E

With auto iris lenses it is necessary to control the operation of the iris to maintain perfect picture levels, Video drive lenses contain amplifier circuit to convert the video signal from the camera into iris motor control. With DC drive lenses the camera must contain amplifier circuitry, the lens now only contains the galvanometric iris motor making it less expensive. The deciding factor depends on the auto iris output of the camera, most now have both types.

The depth of field refers to the area within the field of view which is in focus. A large depth of field means that a large percentage of the field of view is in focus. A small depth of field has only a small section of the field of view in focus. The depth of field is influenced by several factors; a wide angle lens generally has a larger depth of field than a telephoto lens, a higher F stop setting also has a larger depth of field, and high resolution cameras have a larger depth of field.

A U T O O R M A N U A L I R I S

Generally we tend to use auto iris lenses externally where there are variations in the lighting levels, manual iris lenses are normally for internal applications where the light level remains constant. With the introduction of electronic iris cameras it is now possible to use manual iris lenses in varying light conditions and the camera will electronically compensate, however there are several considerations to this option; the setting of the F stop becomes critical, if the iris is opened fully to allow the camera to work at night, the depth of field will be very small and it may be more difficult to achieve sharp focus even during the day, the camera can maintain normal video levels but it cannot affect the depth of field. If the iris is closed to increase the dept of field the low light performance of the camera will now be reduced.

LENS SPEED AND DEPTH OF FIELD IMAGE

F S T O P

The lens usually has two measurements of F stop or aperture, the maximum aperture (minimum F stop) when the lens is fully open and minimum aperture (maximum F stop) just before the lens completely closes. The F stop has a number of effects upon the final image; a low minimum F stop will mean the lens can pass more light in dark condition, allowing the camera to produce a better image, and a maximum F stop may be necessary where there is a very high level of light or reflection, this will prevent the camera "whiting out" and maintain constant video level. All auto iris lenses are supplied with Neutral Density filters to increase the maximum F stop. The F stop also directly affects the depth of field.

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A S P H E R I C A L L E N S E S

Spherical lenses have constant refractive indices and are commonly used in almost all CCTV lenses. They are designed in such a way so that light passing through the glass and center of a spherical element should fall on a single point on the image plane, but causing some spherical aberration. This problem is resolved by the aspherical lens technology, enabling more light to pass through the element and to focus right on the same point as on the image plane. Supported by more advanced molding technologies, aspherical lenses eliminate the size constraints and improve the overall optical performance compared with more conventional CCTV lenses.

C mount lens CS mount lens

C mount camera ○ ×

CS mount camera needs 5mm ring ○

C O R C S M O U N T

Modern cameras and lenses are generally CS mount, with CS mount cameras both types of lenses can be used but the C mount lens requires a 5mm ring (VM400) to be fitted between the camera and lens to achieve a focused image. With C mount cameras it is not possible to use CS mount lenses as it not physically possible to get the lens close enough to the sensor to achieve a focused image.

F L A N G E B A C K , B A C K F O C A L L E N G T H , A N D M E C H A N I C A L B A C K F O C A L L E N G T H

(A) Flange BackDistance between the lens flange and CCD focal plane

(B) Back Focal LengthDistance between the surface of the rear lens element and CCD focal plane

(C) Mechanical Back Focal LengthDistance between the surface of the lens frame and CCD focal plane


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M E C H A N I S M A N D A D V A N T A G E O U S E F F E C T O F I R L E N S

■ NON IR LENS ■ IR LENS

Day & Night cameras normally operate in the near-infrared / infrared zones at night, making the image "out of focus" and unsuitable if used with a conventional lens. ComputarRhas developed IR Lenses that utilize a special optical glass material which minimizes light dispersion. As a result, refocusing is not required when used with infrared lighting. The lens is manufactured with a special ED glass (extra dispersion) which does not widely disperse light of different wavelengths and with "special coating". This combination allows the lens to deliver perfect focus under normal lighting and also under IR illumination by transmitting more light to the infrared region.

Daytime

Nighttime

IR lens

Non IR lens

※ Monitoring images with Day & Night cameras


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M E G A P I X E L L E N S F O R M E G A P I X E L C A M E R A

To capture the full resolution of a megapixel camera, it is essential to use a high quality megapixel lens. Overall image quality is heavily influenced by the quality of the optical image directed onto the image sensor. Megapixel lenses provide high contrast, brightness and sharpness across the entire image plane. Non-megapixel lenses will not fully display the resolution of megapixel sensors, especially in the corners of the image.

Megapixel lens with a megapixel cameraNon-megapixel lens with a megapixel camera

M E G A P I X E L

CCD and CMOS image sensors use a series of pixels arranged on a 2 dimensional grid. These pixels convert an optical image to an electronic signal. The number of pixels in an image usually defines the resolution, with more pixels meaning higher resolution. A megapixel is defined as one million pixels and a camera with a megapixel sensor is called a megapixel camera.

※ Above pictures and chart are image of lens performance.

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Megapixel lens

Non-megapixel lens


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P - I R I S L E N S

ENHANCING PICTURE QUALITY

MAXIMIZE DEPTH OF FIELD

WIDE RANGE OF BOARD AND CS MOUNT OPTIONS


Model No.Format

MountFocal

Length(mm)

Aperture(F)

Angle of View (HORIZONTAL) UNIT: (° )

inch 2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

DC DRIVE

TG2314FCS-3 1/3 CS 2.3 1.4-360C - - 113.3 86.3TG2616FCS-4 1/3 CS 2.6 1.6-360C - - 99.6 74.9TG0412FCS-3 1/3 CS 4 1.2-360C - - 63.9 49.1TG0812FCS-3 1/3 CS 8 1.2-360C - - 34.7 25.9HG1214FCS-3 1/2 CS 12 1.4-360C - 30.4 22.8 17.0

VIDEO DRIVETG2314AFCS-3 1/3 CS 2.3 1.4-360C - - 113.3 86.3TG2616AFCS-4 1/3 CS 2.6 1.6-360C - - 99.6 74.9HG1214AFCS-3 1/2 CS 12 1.4-360C - 30.4 22.8 17.0

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

MANUAL IRIS

T2Z1816CS 1/3 CS 1.8-3.6 1.6-16C - - 144.2-79.4 109.5-59.6T3Z2910CS 1/3 CS 2.9-8.2 1.0-16C - - 98.3-35.2 70.7-26.3T3Z2910CS-IR 1/3 CS 2.9-8.2 1.0-16C - - 95.0-35.6 69.0-26.7T3Z3510CS 1/3 CS 3.5-10.5 1.0-16C - - 81.6-27.2 59.4-20.4T3Z3510CS-IR 1/3 CS 3.5-10.5 1.0-16C - - 81.8-27.2 59.2-20.4T4Z2813CS-IR 1/3 CS 2.8-12 1.3-16C - - 102.2-23.7 74.2-17.8T10Z0513CS-3 1/3 CS 5-50 1.3-16C - - 51.8-5.6 39.2-4.3T5Z8513CS-IR 1/3 CS 8.5-40 1.3-16C - - 33.5-7.1 24.4-5.3H2Z4516CS-2 1/2 CS 4.5-10 1.6-16C - 81.3-38.2 60.4-28.7 33.6-16.1H3Z4512CS-IR 1/2 CS 4.5-12.5 1.2-16C - 83.7-30.1 61.3-22.6 45.3-17.0H3Z1014CS 1/2 CS 10-30 1.4-16C - 35.8-12.5 26.8-9.4 20.1-7.0

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

CS MOUNT

T2314FICS-3 1/3 CS 2.3 1.4-16C - - 113.3 86.3T2616FICS-4 1/3 CS 2.6 1.6-11C - - 99.6 74.9T0412FICS-3 1/3 CS 4 1.2-16C - - 63.9 49.1T0812FICS-3 1/3 CS 8 1.2-16C - - 34.7 25.9H1214FICS-3 1/2 CS 12 1.4-16C - 30.4 22.8 17.0

C MOUNT M8513 2/3 C 8.5 1.3-16C 57.4 42.6 32.2 24.2

M O N O F O C A L A U T O I R I S　　 DC DRIVE / VIDEO DRIVE P8 ～ 9

V A R I - F O C A L M A N U A L I R I S P10 ～ 12

M O N O F O C A L M A N U A L I R I S　　 C-MOUNT / CS-MOUNT P7 ～ 8


ANGLE OF VIEW

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

DC DRIVE

TG2Z1816FCS 1/3 CS 1.8-3.6 1.6-360C - - 144.2-79.4 109.5-59.6TG3Z2312FCS 1/3 CS 2.3-6 1.2-360 - - 114.8-48.2 86.0-36.1TG3Z2910FCS 1/3 CS 2.9-8.2 1.0-360C - - 98.3-35.2 70.7-26.3TG3Z2910FCS-IR 1/3 CS 2.9-8.2 1.0-360C - - 95.0-35.6 69.0-26.7TG3Z3510FCS 1/3 CS 3.5-10.5 1.0-360 - - 81.6-27.2 59.4-20.4TG3Z3510FCS-IR 1/3 CS 3.5-10.5 1.0-360 - - 81.8-27.2 59.2-20.4TG4Z2813FCS-IR 1/3 CS 2.8-12 1.3-360 - - 102.2-23.7 74.2-17.8TG10Z0513FCS-3 1/3 CS 5-50 1.3-360C - - 51.8-5.6 39.2-4.3TG5Z8513FCS-IR 1/3 CS 8.5-40 1.3-360C - - 33.5-7.1 24.4-5.3HG2Z4516FCS-2 1/2 CS 4.5-10 1.6-360C - 81.3-38.2 60.4-28.7 33.6-16.1HG3Z4512FCS-IR 1/2 CS 4.5-12.5 1.2-360 - 83.7-30.1 61.3-22.6 45.3-17.0HG3Z1014FCS 1/2 CS 10-30 1.4-360C - 35.8-12.5 26.8-9.4 20.1-7.0

VIDEO DRIVE

TG2Z1816AFCS 1/3 CS 1.8-3.6 1.6-360C - - 144.2-79.4 109.5-59.6TG3Z2910AFCS 1/3 CS 2.9-8.2 1.0-360C - - 98.3-35.2 70.7-26.3TG3Z2910AFCS-IR 1/3 CS 2.9-8.2 1.0-360C - - 95.0-35.6 69.0-26.7TG3Z3510AFCS 1/3 CS 3.5-10.5 1.0-360 - - 81.6-27.2 59.4-20.4TG3Z3510AFCS-IR 1/3 CS 3.5-10.5 1.0-360 - - 81.8-27.2 59.2-20.4TG4Z2813AFCS-IR 1/3 CS 2.8-12 1.3-36 - - 102.2-23.7 74.2-17.8TG10Z0513AFCS-3 1/3 CS 5-50 1.3-360C - - 51.8-5.6 39.2-4.3TG5Z8513AFCS-IR 1/3 CS 8.5-40 1.3-360C - - 33.5-7.1 24.4-5.3HG2Z4516AFCS-2 1/2 CS 4.5-10 1.6-360C - 81.3-38.2 60.4-28.7 33.6-16.1HG3Z4512AFCS-IR 1/2 CS 4.5-12.5 1.2-360 - 83.7-30.1 61.3-22.6 45.3-17.0HG3Z1014AFCS 1/2 CS 10-30 1.4-360C - 35.8-12.5 26.8-9.4 20.1-7.0

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

MANUAL IRISH6Z0812 1/2 C 8-48 1.2-16C - 44.6-8.0 33.5-6.1 25.2-4.6M6Z1212-3S 2/3 C 12.5-75 1.2-16C 38.3-6.7 28.3-5.0 21.3-3.8 16.0-2.8

Model No.Format

MountFocvalLength(mm)

Aperture(F)


inch 2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

DC DRIVET6Z5710AIDC-CS 1/3 CS 5.7-34.2 1.0-360C - - 45.9-8.1 34.8-6.2H6Z0812AIDC 1/2 C 8-48 1.2-560C - 44.6-8.0 33.5-6.1 25.2-4.6

VIDEO DRIVET6Z5710AIVD-CS 1/3 CS 5.7-34.2 1.0-360C - - 45.9-8.1 34.8-6.2H6Z0812AIVD 1/2 C 8-48 1.2-560C - 44.6-8.0 33.5-6.1 25.2-4.6

V A R I - F O C A L A U T O I R I S　　 DC DRIVE / VIDEO DRIVE P13 ～ 18

M A N U A L Z O O M　　MANUAL IRIS P19

M A N U A L Z O O M W I T H A U T O I R I S　　 DC DRIVE/VIDEO DRIVE P20


ANGLE OF VIEW

ANGLE OF VIEW

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 1/1.8"(7.1×5.4mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

1/3"

T6Z5710 series 1/3 CS 5.7-34.2 1.0 〜 - - 45.9-8.1 34.8-6.2T10Z5712 series 1/3 CS 5.7-57 1.2 〜 - - 44.6-4.8 34.2-3.7T21Z5816 series 1/3 CS 5.8-121.8 1.6 〜 - - 44.8-2.3 33.8-1.8T34Z5518 series 1/3 CS 5.5-187 1.8 〜 - - 46.6-1.5 35.2-1.1

1/2"

H6Z0812 series 1/2 C 8-48 1.2 〜 - 44.6-8.0 33.5-6.1 25.2-4.6H10Z0812 series 1/2 C 8-80 1.2 〜 - 44.0-4.7 33.3-3.5 25.0-2.6H10Z1218 series 1/2 C 12-120 1.8 〜 - 29.4-3.1 22.2-2.3 16.7-1.7H16Z7516 series 1/2 C 7.5-120 1.6 〜 - 46.6-3.2 35.3-2.4 26.6-1.8H16Z7516-IR series 1/2 C 7.5-120 1.6 〜 - 47.0-3.1 35.4-2.4 26.6-1.7H30Z1015 series 1/2 C 10-300 1.5 〜 - 35.5-1.25 26.8-0.94 20.1-0.71H60Z1238 series 1/2 C 12.5-750 3.8 〜 - 28.7-0.48 21.7-0.37 16.4-0.28

MEGAPIXEL

H21Z1016-MP series 1/2 C 10-210 1.6 〜 - 35.4-1.72 26.9-1.30 20.2-0.98E24Z1018-MP(IR) series 1/1.8 C 10-240 1.8 〜 39.0-1.7 35.2-1.6 26.5-1.2 -H35Z1015-MP series 1/2 C 10-350 1.5 〜 - 35.30-1.05 26.70-0.79 20.1-0.44H62Z1235-MP series 1/2 C 12.5-775 3.5 〜 - 28.77-0.47 21.8-0.35 16.41-0.26

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

1/3" ～ 2/3"

TG4Z2816FCS-MPIR 1/3 CS 2.8-12 1.6-360 - - 102.2-23.7 74.2-17.8H2Z0414C-MP 1/2 C 4-8 1.4-16C - 90.4-47.0 67.0-35.3 50.0-26.5HG2Z0414FC-MP 1/2 C 4-8 1.4-360 - 90.4-47.0 67.0-35.3 50.0-26.5M3Z1228C-MP 2/3 C 12-36 2.8-16C 41.0-13.6 30.2-10.0 22.8-7.6 17.1-5.7MG3Z1228FC-MP 2/3 C 12-36 2.8-360 41.0-13.6 30.2-10.0 22.8-7.6 17.1-5.7

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

MANUAL IRIS T2625CS-P 1/3 CS 2.6 2.5-32C - - 83.2 67.5DC DRIVE TG2625FCS-P 1/3 CS 2.6 2.5-360C - - 83.2 67.5

VIDEO DRIVE TG2625AFCS-P 1/3 CS 2.6 2.5-360C - - 83.2 67.5

M O T O R I Z E D Z O O M　　 1/3" 1/2" 1/1.8" P21 ～ 36

M E G A P I X E L V A R I - F O C A L　　 SECURITY　 P37

P I N H O L E　　MANUAL IRIS / DC DRIVE / VIDEO DRIVE P19

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 1/2"(4:3)

1/2.7"(16:9)

1/2.7"(4:3)

1/3"(4:3)

1/4"(4:3)

MANUAL IRIS

T3Z0312CS-MPIR 1/3 CS 3-8 1.2-16C - - - 90.7-35.2 84.8-33A3Z3112CS-MPIR 1/2.7 CS 3.1-8 1.2-16C - 105.4-42.2 95.9-38.7 86.7-35.2 -A4Z1214CS-MPIR 1/2.7 CS 12.5-50 1.4-16C - 26.3-6.7 24.0-6.2 21.7-5.6 -E3Z4518CS-MPIR ※ 1/1.8 CS 4.5-13.2 1.8-16C 80.0-28.6 - - 60.0-21.5 -H5Z2518C-MP 1/2 C 25-135 1.8-16C 14.5-2.8 - - 10.8-2.1 -

DC IRIS

TG3Z0312FCS-MPIR 1/3 CS 3-8 1.2-360C - - - 90.7-35.2 84.8-33AG3Z3112FCS-MPIR 1/2.7 CS 3.1-8 1.2-360C - 105.4-42.2 95.9-38.7 86.7-35.2 -AG4Z1214FCS-MPIR 1/2.7 CS 12.5-50 1.4-360C - 26.3-6.7 24.0-6.2 21.7-5.6 -HG5Z2518FC-MP 1/2 C 25-135 1.8-360C 14.5-2.8 - - 10.8-2.1 -

P-IRISTG3Z0312KCS-MPIR 1/3 CS 3-8 1.2-16C - - - 90.7-35.2 84.8-33AG3Z3112KCS-MPIR 1/2.7 CS 3.1-8 1.2-16C - 105.4-42.2 95.9-38.7 86.7-35.2 -AG4Z1214KCS-MPIR 1/2.7 CS 12.5-50 1.4-16C - 26.3-6.7 24.0-6.2 21.7-5.6 -

3 M E G A P I X E L V A R I - F O C A L　　 SECURITY　 P38 ～ 40

※ E3Z4518CS-MPIR : 5 MEGAPIXEL

63


Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 1.1" 1" 2/3" 1/2"

SDTEC-M55 2/3 C 55 2.8-32C - - 9.2 6.7MLH-10X 1/2 C ※ 0.084-0.84X 5.6-32C - - - 18.0-3.6

MEGAPIXELMLM-3XMP 2/3 C ※ 0.3X-1.0X 4.5-22C - - 11.8-1.2 8.6-0.9TEC-V7X 1.1 C ※ 0.07-0.5X 4.3-32 7.05-1.12 7.28-1.25 5.05-0.89 -

※ mark (MLH-10X, MLM-3XMP, TEC-V7X) shows maximum magnification.

Model No. Mount(mm)

FocalLength(mm)

Aperture(F)


640 x 480(17µm)

384 x 288(25µm)

320 x 240(25µm)

320 x 240(17µm)

THERMALTH17V3511-34 M34 x 0.5(Pitch) 35 1.1 17.7 15.6 13.0 8.9TH17V1810-34 M34 x 0.5(Pitch) 18.8 1.0 32.9 28.9 24.3 16.3TH17V1311-34 M34 x 0.5(Pitch) 13 1.1 50.3 43.9 36.2 24.3

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

1/4"(3.6×2.7mm)

MEGAPIXEL

H0514-MP2 1/2 C 5 1.4-16C - 65.5 51.4 39.5M0814-MP2 2/3 C 8 1.4-16C 56.3 42.5 32.4 24.6M1214-MP2 2/3 C 12 1.4-16C 40.4 30.0 22.7 17.1M1614-MP2 2/3 C 16 1.4-16C 30.8 22.7 17.1 12.6M2514-MP2 2/3 C 25 1.4-16C 20.0 14.6 11.0 8.2M3514-MP 2/3 C 35 1.4-16C 13.9 10.1 7.6 5.7M5018-MP2 2/3 C 50 1.8-16C 10.5 7.6 5.7 4.3M7528-MP 2/3 C 75 2.8-16C 6.8 5.0 3.7 2.8

5 MEGAPIXEL

M1620-MPW2 2/3 C 16 2.0-16 30.7 22.6 17.1 12.8M2518-MPW2 2/3 C 25 1.8-16 19.9 14.5 10.9 8.2M3520-MPW2 2/3 C 35 2.0-22 14.3 10.4 7.8 5.9M5028-MPW2 2/3 C 50 2.8-32 10.0 7.3 5.5 4.1M2518-MPW 2/3 C 25 1.8-16 20.5 15 11.3 8.5

O T H E R S　　 SECURITY / FA・ IMAGE PROCESSING　 P44

T H E R M A L　　　 P50

M E G A P I X E L M O N O F O C A L　　 SECURITY / ITS / FA・ IMAGE PROCESSING　 P41 ～ 43

M E G A P I X E L M O N O F O C A L　　 ITS　 P45 ～ 48

※ SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE

Model No.Format

MountFocal

Length(mm)

Aperture(F)


inch 2/3"(11.3×6.0mm)

2/3"(8.8×6.6mm)

1/2"(6.4×4.8mm)

1/3"(4.8×3.6mm)

MANUAL IRIS

M0918FIC-MP 2/3 C 9 1.8-16C - 52.1 38.7 29.3M1218FIC-MP 2/3 C 12 1.8-16C - 39.3 29.1 22.1M1616FIC-MP 2/3 C 16 1.6-16C - 30.8 22.7 17.1M2514FIC-MP 2/3 C 25 1.4-16C - 20.0 14.6 11.0M3518FIC-MPIR 2/3 C 35 1.8-16C 17.8 13.9 10.2 7.6M5020FIC-MPIR 2/3 C 50 2.0-16C 12.5 9.8 7.1 5.3

DC IRIS

MG0918FC-MP 2/3 C 9 1.8-360C - 52.1 38.7 29.3MG1218FC-MP 2/3 C 12 1.8-360C - 39.3 29.1 22.1MG1616FC-MP 2/3 C 16 1.6-360C - 30.8 22.7 17.1MG2514FC-MP 2/3 C 25 1.4-360C - 20.0 14.6 11.0MG3518FC-MPIR 2/3 C 35 1.8-360C 17.8 13.9 10.2 7.6MG5020FC-MPIR 2/3 C 50 2.0-360C 12.5 9.8 7.1 5.3

P-IRIS

MG0918KC-MP 2/3 C 9 1.8-16C - 52.1 38.7 29.3MG1218KC-MP 2/3 C 12 1.8-16C - 39.3 29.1 22.1MG1616KC-MP 2/3 C 16 1.6-16C - 30.8 22.7 17.1MG2514KC-MP 2/3 C 25 1.4-16C - 20.0 14.6 11.0MG3518KC-MPIR 2/3 C 35 1.8-16C 17.8 13.9 10.2 7.6MG5020KC-MPIR 2/3 C 50 2.0-16C 12.5 9.8 7.1 5.3


ANGLE OF VIEW

CBC (AMERICA) Corp.West Coast Office

21241 S. Western AvenueSuite #160Torrance, CA 90501Tel : +1 877 407 9555Fax : +1 310 787 0464

CBC (AMERICA) Corp.Mexico Branch Office

Galileo #20, Desp. 101Col. PolancoDeleg. Miguel HidalgoMéxico D.F. C.P. 11560Tel : +52 55 5280 4660Fax : +52 55 5280 3073

CBC (AMERICA) Corp.Corporate Headquarters

55 Mall DriveCommack, NY 11725Tel : + 1 800 422 6707Fax : + 1 631 543 5426 email: [email protected]

Computar Optics Group

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